Classroom Training

  • All Classroom Training
  • Design & Simulation
  • Failure Analysis
  • Industry 4.0
  • Manufacturing Process
  • Material
All Classroom Training
  • All Classroom Training
  • Design & Simulation
  • Failure Analysis
  • Industry 4.0
  • Manufacturing Process
  • Material
Mechanism, gears and cogs at work. Industrial machinery. Close-up, detailed. 3D illustration
Design & SimulationFailure Analysis

MTS07 Gears – From Design to Implementation

Discover the key elements needed to achieve quality gears and be more efficient in your discussions with experts
25th – 26th August 2021

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Failure AnalysisMaterial

MTS02: Corrosion Fundamentals for Engineers and Inspectors

Although corrosion is regarded as nature’s way of converting a refined metal to a more stable form, its impact…
4th – 5th October 2021

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Design & Simulation

CL01 Crane Design in accordance with EN 13001 series of standards

Master the scientific basis and the essential rules of crane design, in accordance with EN 13001 series of standards…
19th – 21st October 2021

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Failure Analysis

MTS01: Failure Analysis and Forensic Investigation

Failure of components or sometimes the entire structure often pose significant impact and threats to safety, economic and even to environmental issues.
14th & 15th December 2021

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Design & Simulation

EF 01 Structure Analysis Initiation with Finite Element Analysis

Use finite element analysis for dimensioning structures.
TBA

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Design & Simulation

L 67: Tight Bolted Joints using EN 1591 Design Method

Design bolted flange joints according to the tightness level requirement by applying the theoretical and practical…
TBA

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Material

M682: Composite Materials

In-depth Knowledge Transfer of Composite Materials from Manufacturing, Remaining Life Assessment to Failure Analysis
TBA

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Manufacturing Process

S 18: Machining using 5-Axis Multi-function Machines

The latest 5-axis multifunction machines increase your competitiveness. Give your technicians the knowledge they need…
TBA

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Manufacturing ProcessMaterial

M12 Tribology: Friction, Wear and Lubrication of Mechanical Parts

Master the concepts of tribology to optimize the design and maintenance of your mechanical parts that are subjected…
TBA

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Industry 4.0

ROB01: Robotizing Effectively – The Keys to a Structured Approach

Failure of components or sometimes the entire structure often pose significant impact and threats to safety, economic…
TBA

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Design & Simulation

RDM01: Material Resistance and Sizing Level 1 – Basic applications

Failure of components or sometimes the entire structure often pose significant impact and threats to safety, economic…
TBA

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3D metal printer produces a steel part. Revolutionary additive technology for sintering metal parts. Soft focus.
Industry 4.0Manufacturing Process

FA 88 Additive Manufacturing – Control & Post-Processing

Successfully Integrate Additive Manufacturing into your Operations. Laser Beam Technology, LBM, an essential training…
TBA

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3D metal printer produces a steel part. Revolutionary additive technology for sintering metal parts. Soft focus.
Industry 4.0Manufacturing Process

FA 89 Additive Manufacturing – Qualification

Successfully Integrate Additive Manufacturing into your Operations. Laser Beam Technology, LBM, an essential training…
TBA

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Industry 4.0Manufacturing Process

FA 90 – Additive Manufacturing – Leading to Qualifications & Production

We help companies involved in development projects in Additive Manufacturing
TBA

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3D metal printer produces a steel part. Revolutionary additive technology for sintering metal parts. Soft focus.
Industry 4.0Manufacturing Process

FA 11 – Additive Manufacturing: How to Integrate it Into Your Production

Know when to subcontract or purchase your own equipment, assess the economic and organizational impact and run…
TBA

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Manufacturing ProcessMaterial

F06: Cleaning and Cleanliness of Parts

Implement a cleanliness management in order to make cleanliness a performance lever
TBA

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Failure AnalysisMaterial

MTS02: Corrosion Fundamentals for Engineers and Inspectors

Although corrosion is regarded as nature’s way of converting a refined metal to a more stable form, its impact…
TBA

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Failure Analysis

MTS03/04: 04Failure and Damage Mechanisms Affecting Fixed Equipment (with reference to API 571)

ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA

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Failure Analysis

MTS03: Failure and Damage Mechanisms Affecting Fixed Equipment – Part I

ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA

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Failure AnalysisMaterial

MTS02: Corrosion Fundamentals for Engineers and Inspectors

Although corrosion is regarded as nature’s way of converting a refined metal to a more stable form, its impact…
TBA

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Failure Analysis

MTS06: Failure Analysis of Mechanical Power Transmission Components

Understand the causes of failures of power transmission components (shaft, gears and bearings) to better avoid them. Implement appropriate corrective actions using a structured failure analysis approach.
TBA

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Failure Analysis

MTS03/04: Failure and Damage Mechanisms Affecting Fixed Equipment- Part I & II (Refining/Petrochemical Industrial)

ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA

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Failure Analysis

MTS03: Failure and Damage Mechanisms Affecting Fixed Equipment- Part I

ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA

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Failure Analysis

MTS04: Failure and Damage Mechanisms Affecting Fixed Equipment – Part II

ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA

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Mechanical engineering, industrial plan design concept. Engineering tools on technical drawings background. 3d illustration
Failure Analysis

MTS08: Gear Tribology and Associated Failures

Understand the mechanisms of tooth surface damages on gears and tribology of gears to identify the causes of the failures and avoid disruptions to operations
TBA

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